/*
* Montgomery Exponentiation
* (C) 1999-2010,2012 Jack Lloyd
*     2016 Matthias Gierlings
*
* Botan is released under the Simplified BSD License (see license.txt)
*/

#include <botan/internal/def_powm.h>
#include <botan/numthry.h>
#include <botan/internal/mp_core.h>

namespace Botan {

/*
* Set the exponent
*/
void Montgomery_Exponentiator::set_exponent(const BigInt& exp)
   {
   m_exp = exp;
   m_exp_bits = exp.bits();
   }

/*
* Set the base
*/
void Montgomery_Exponentiator::set_base(const BigInt& base)
   {
   m_window_bits = Power_Mod::window_bits(m_exp.bits(), base.bits(), m_hints);

   m_g.resize((1 << m_window_bits));

   BigInt z(BigInt::Positive, 2 * (m_mod_words + 1));
   secure_vector<word> workspace(z.size());

   m_g[0] = 1;

   bigint_monty_mul(z, m_g[0], m_R2_mod,
                    m_modulus.data(), m_mod_words, m_mod_prime,
                    workspace.data());
   m_g[0] = z;

   m_g[1] = m_reducer.reduce(base);

   bigint_monty_mul(z, m_g[1], m_R2_mod,
                    m_modulus.data(), m_mod_words, m_mod_prime,
                    workspace.data());

   m_g[1] = z;

   const BigInt& x = m_g[1];

   for(size_t i = 2; i != m_g.size(); ++i)
      {
      const BigInt& y = m_g[i-1];

      bigint_monty_mul(z, x, y, m_modulus.data(), m_mod_words, m_mod_prime,
                       workspace.data());

      m_g[i] = z;
      }
   }

/*
* Compute the result
*/
BigInt Montgomery_Exponentiator::execute() const
   {
   const size_t exp_nibbles = (m_exp_bits + m_window_bits - 1) / m_window_bits;

   BigInt x = m_R_mod;

   const size_t z_size = 2*(m_mod_words + 1);

   BigInt z(BigInt::Positive, z_size);
   secure_vector<word> workspace(z.size());

   for(size_t i = exp_nibbles; i > 0; --i)
      {
      for(size_t k = 0; k != m_window_bits; ++k)
         {
         bigint_monty_sqr(z, x, m_modulus.data(), m_mod_words, m_mod_prime,
                          workspace.data());

         x = z;
         }

      const uint32_t nibble = m_exp.get_substring(m_window_bits*(i-1), m_window_bits);

      bigint_monty_mul(z, x, m_g[nibble],
                       m_modulus.data(), m_mod_words, m_mod_prime,
                       workspace.data());

      x = z;
      }

   x.grow_to(2*m_mod_words + 1);

   bigint_monty_redc(x.mutable_data(),
                     m_modulus.data(), m_mod_words, m_mod_prime,
                     workspace.data());

   return x;
   }

/*
* Montgomery_Exponentiator Constructor
*/
Montgomery_Exponentiator::Montgomery_Exponentiator(const BigInt& mod,
                                                   Power_Mod::Usage_Hints hints) :
   m_modulus(mod),
   m_reducer(m_modulus),
   m_mod_words(m_modulus.sig_words()),
   m_window_bits(1),
   m_hints(hints)
   {
   // Montgomery reduction only works for positive odd moduli
   if(!m_modulus.is_positive() || m_modulus.is_even())
      throw Invalid_Argument("Montgomery_Exponentiator: invalid modulus");

   m_mod_prime = monty_inverse(mod.word_at(0));

   const BigInt r = BigInt::power_of_2(m_mod_words * BOTAN_MP_WORD_BITS);
   m_R_mod = m_reducer.reduce(r);
   m_R2_mod = m_reducer.square(m_R_mod);
   m_exp_bits = 0;
   }

}
